A method includes forming a first package component, and forming a first plurality of electrical connectors at a first surface of the first package component. The first plurality of electrical connectors are laid out as having a honeycomb pattern. A second package component is bonded to the first package component, wherein a second plurality of electrical connectors at a second surface of the second package component are bonded to the first plurality of electrical connectors.

A semiconductor package includes main pad structures and dummy pad structures between a first semiconductor chip and a second semiconductor chip. The main pad structures include first main pad structures apart from one another on the first semiconductor chip and second main pad structures placed apart from one another on the second semiconductor chip and bonded to the first main pad structures. The dummy pad structures include first dummy pad structures including first dummy pads apart from one another on the first semiconductor chip and first dummy capping layers on the first dummy pads, and second dummy pad structures including second dummy pads apart from one another on the second semiconductor chip and second dummy capping layers on the second dummy pads. The first dummy capping layers of the first dummy pad structures are not bonded to the second dummy capping layers of the second dummy pad structures.

A first package is bonded to a first substrate with first external connections and second external connections. The second external connections are formed using materials that are different than the first external connections in order to provide a thermal pathway from the first package. In a particular embodiment the first external connections are solder balls and the second external connections are copper blocks.

A method for forming a chip package structure is provided. The method includes forming a conductive pad over a carrier substrate, forming a substrate layer over the carrier substrate, wherein the conductive pad is embedded in the substrate layer, forming a conductive pillar electrically connected to the conductive pad, disposing a chip in the substrate layer, and forming a molding layer surrounding the chip.

A packaged device comprises first die stack and a third die. The first die stack includes a first die comprising first conductive contacts each at a first side of the first die, and a second die comprising second conductive contacts each at a second side of the second die. First solder bonds which each extend to a respective one of the first conductive contacts. The third die comprises third conductive contacts each at a third side of the third die. The third die is coupled to the first die stack via second solder bonds which each extend to a respective one of the second conductive contacts, and to a respective one of the third conductive contacts. Each die of the first die stack is coupled to each of a respective one or more other dies of the first die stack via respective hybrid bonds.

Provided is a semiconductor package including: a first substrate having a first electrode pad and a first protective layer in which a cavity is formed; a first bump pad arranged in the cavity and connected to the first electrode pad; a second substrate facing the first substrate and having a second bump pad; and a bump structure in contact with the first bump pad and the second bump pad, wherein the first electrode pad has a trapezoidal shape, and the first bump pad has a flat upper surface and an inclined side surface extending along a side surface of the first electrode pad.

Microelectronic assemblies, related devices and methods, are disclosed herein. In some embodiments, a microelectronic assembly may include a first die, having a first surface and an opposing second surface with conductive contacts, in a first layer; a first material surrounding the first die and extending along a thickness of the first die from the second surface, and wherein the first material includes first particles having an average diameter between 200 and 500 nanometers; a second material surrounding the first die and extending along the thickness of the first die from the first surface, and wherein the second material includes second particles having an average diameter between 0.5 and 12 microns; an interface portion, between the first and second materials, including the first and second particles; and a second die, in a second layer on the first layer, electrically coupled to the conductive contacts on the first die.

A packaged device that carries multiple component devices uses a back-mounted structure to reduce the area of the substrates in the package. The package includes a first organic laminate substrate and a second organic laminate substrate. The first organic laminate substrate is the base substrate of the packaged device. The second organic laminate substrate has higher wiring density than the first organic laminate substrate. The second organic laminate substrate is joined to a top surface (or module mounting side) of the first organic laminate substrate. A first component device is mounted on a top surface of the second organic laminate substrate. A second component device is mounted on a bottom surface of the second organic laminate substrate. The second component device recesses into a cavity at the top surface of the first organic laminate substrate.

An apparatus is provided which comprises: a processor die; a processor substrate having a region extended away from the processor die, wherein the processor die is mounted on the processor substrate, wherein the extended region has at least one signal interface which is connectable to a top-side connector; and an interposer coupled to the processor substrate and a motherboard.

A semiconductor device package includes a first substrate, a second substrate, and a first electronic component between the first substrate and the second substrate. The first electronic component has a first surface facing the first substrate and a second surface facing the second substrate. The semiconductor device package also includes a first electrical contact disposed on the first surface of the first electronic component and electrically connecting the first surface of the first electronic component with the first substrate. The semiconductor device package also includes a second electrical contact disposed on the second surface of the first electronic component and electrically connecting the second surface of the first electronic component with the second substrate. A method of manufacturing a semiconductor device package is also disclosed.